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Rudolf Diesel

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Rudolf Diesel
Diesel, c. 1900
Born
Rudolf Christian Karl Diesel

(1858-03-18)18 March 1858
Died29 September 1913(1913-09-29) (aged 55)
Resting placeNorth Sea
NationalityGerman[note 1]
Other namesOscar Lintz
Alma materTechnical University of Munich
Occupations
  • Engineer
  • inventor
  • entrepreneur
Known forDiesel engine
Diesel fuel
Notable workMotor 250/400
Spouse
Martha Flasche
(m. 1883)
Children3
AwardsElliott Cresson Medal (1901)
Engineering career
DisciplineMechanical engineering
Employer(s)
Significant advanceInternal combustion engine
Signature

Rudolf Christian Karl Diesel (English: /ˈdzəlˌ -səl/,[1] German: [ˈdiːzl̩] ; 18 March 1858 – 29 September 1913) was a German[note 1] inventor and mechanical engineer who invented the Diesel engine, which burns Diesel fuel; both are named after him.

Early life and education

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Diesel was born at 38 Rue Notre Dame de Nazareth in Paris, France, in 1858[2] the second of three children of Elise (née Strobel) and Theodor Diesel. His parents were Bavarian immigrants living in Paris.[3][4] Theodor Diesel, a bookbinder by trade, left his home town of Augsburg, Bavaria, in 1848. He met his wife, a daughter of a Nuremberg merchant, in Paris in 1855 and became a leather goods manufacturer there.[5]

Shortly after his birth, Diesel was given away to a Vincennes farmer family, where he spent his first nine months. When he was returned to his family, they moved into the flat 49 in the Rue de la Fontaine-au-Roi. At the time, the Diesel family suffered from financial difficulties, thus young Rudolf Diesel had to work in his father's workshop and deliver leather goods to customers using a barrow. He attended a Protestant-French school and soon became interested in social questions and technology.[6] Being a very good student, 12-year-old Diesel received the Société pour l'Instruction Elémentaire bronze medal[7] and had plans to enter Ecole Primaire Supérieure in 1870.[8]

At the outbreak of the Franco-Prussian War the same year, his family were deported to England, settling in London, where Diesel attended an English-speaking school.[8] Before the war's end, however, Diesel's mother sent 12-year-old Rudolf to Augsburg to live with his aunt and uncle, Barbara and Christoph Barnickel, to become fluent in German and to visit the Königliche Kreis-Gewerbeschule (Royal County Vocational College), where his uncle taught mathematics. He was enrolled at the Technische Hochschule (Tehnical High School).[9]

At the age of 14, Diesel wrote a letter to his parents saying that he intended to become an engineer. After finishing his basic education at the top of his class in 1873, he enrolled at the newly founded Industrial School of Augsburg. Two years later, he received a merit scholarship from the Royal Bavarian Polytechnic of Munich, which he accepted against the wishes of his parents, who wanted him to begin working instead.

Career

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One of Diesel's professors in Munich was Carl von Linde. Diesel was unable to graduate with his class in July 1879 because he fell ill with typhoid fever. While waiting for the next examination date, he gained practical engineering experience at the Sulzer Brothers Machine Works in Winterthur, Switzerland. Diesel graduated in January 1880 with highest academic honours and returned to Paris, where he assisted Linde with the design and construction of a modern refrigeration and ice plant. Diesel became the director of the plant a year afterwards.

In 1883, Diesel married Martha Flasche, and continued to work for Linde, gaining numerous patents in both Germany and France.[10]

In early 1890, Diesel moved to Berlin with his wife and children, Rudolf Jr, Heddy, and Eugen, to assume management of Linde's corporate research and development department and to join several other corporate boards. Since he was not allowed to use for his own purposes the patents he developed while an employee of Linde's, he expanded beyond the field of refrigeration. He first worked with steam, his research into thermal efficiency and fuel efficiency leading him to build a steam engine using ammonia vapor. During tests, however, the engine exploded and almost killed him. His research into high-compression cylinder pressures tested the strength of iron and steel cylinder heads. One exploded during a test run. He spent many months in a hospital, followed by health and eyesight problems. It was during this year that Diesel began conceptualising the idea of a diesel engine.[11]

Ever since attending lectures of von Linde, Diesel worked on designing an internal combustion engine that could approach the maximum theoretical thermal efficiency of the Carnot cycle. In 1892, after working on this idea for several years, he considered his theory to be completed. In the same year, Diesel was given the German patent DRP 67207.[12] In 1893, he published a treatise entitled Theory and Construction of a Rational Heat-engine to Replace the Steam Engine and The Combustion Engines Known Today, that he had been working on since early 1892.[13] This treatise formed the basis for his work on and development of the diesel engine. By summer 1893, Diesel had realised that his initial theory was erroneous, leading him to file another patent application for the corrected theory in 1893.[12]

Diesel understood thermodynamics and the theoretical and practical constraints on fuel efficiency. He knew that as much as 90% of the energy available in the fuel is wasted in a steam engine. His work in engine design was driven by the goal of much higher efficiency ratios.

As opposed to outside ignition applied against internal air and fuel mixture, air was compressed internally within the cylinder whilst heating, in order for the fuel to establish contact the air immediately before the compression period would end, thus igniting on its own. Therefore, the engine was smaller and weighed less than most contemporary steam engines, not to mention the fact that further fuel sources weren't required. Fuel efficiency was measured 75% above the 10% theoretical efficiency for steam engines.[14]

In his engine, fuel was injected at the end of the compression stroke and was ignited by the high temperature resulting from the compression. From 1893 to 1897, Heinrich von Buz, director of Maschinenfabrik Augsburg in Augsburg, provided Rudolf Diesel the opportunity to test and develop his ideas.[3] Diesel also received support from the Krupp firm.[15]

Diesel's design utilised compression ignition as opposed to using spark plugs similar to gas engines, with the ability to be run on biodiesel, if not petroleum-originating fuels. Compression engines are circa 30% more efficient over conventional gas burning engines, being mixed through forced compressed air within the combustion chamber, leading to a higher internal temperature, expanding at a higher rate and placing further pressure over the pistons that rotate the crankshaft towards a quicker rate.[16]

Biodiesel often composed of synthesis gas originating from waste cellulose gasification, as well as extraction of lipids from algae, most frequently used by consisting vegetable oils and algae together under methanol transesterification. Numerous firms have developed different techniques in order to achieve such.[17]

The first successful diesel engine Motor 250/400 was officially tested in 1897, featuring a 25 horsepower four-stroke, single vertical cylinder compression. Having just revolutionised the engine manufacturing industry,[18] it became an immediate success,[19] with royalties amassing great wealth for Diesel. The engine is currently on display at the German Technical Museum in Munich.

Besides Germany, Diesel obtained patents for his design in other countries, including the United States.[20][21]

He was inducted into the Automotive Hall of Fame in 1978.

Disappearance and death

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Dresden in Antwerp Harbour, 1913

On the evening of 29 September 1913, Diesel boarded the Great Eastern Railway steamer SS Dresden in Antwerp on his way to a meeting of the Consolidated Diesel Manufacturing company in London. He took dinner on board the ship and then retired to his cabin at about 10 p.m., leaving word to be called the next morning at 6:15 a.m., but he was never seen alive again. In the morning his cabin was empty and his bed had not been slept in, although his nightshirt was neatly laid out and his watch had been left where it could be seen from the bed. His hat and neatly folded overcoat were discovered beneath the afterdeck railing.[22]

Shortly after Diesel's disappearance, his wife Martha opened a bag that her husband had given to her just before his ill-fated voyage, with directions that it should not be opened until the following week. She discovered 20,000 German marks in cash[23] (US$120,000 today) and financial statements indicating that their bank accounts were virtually empty.[24] In a diary Diesel brought with him on the ship, for the date 29 September 1913, a cross was drawn, possibly indicating death.[22]

Ten days after he was last seen, the crew of the Dutch pilot boat Coertsen came upon the corpse of a man floating in the Eastern Scheldt. The body was in such an advanced state of decomposition that it was unrecognisable, and they did not retain it aboard because of heavy weather. Instead, the crew retrieved personal items (pill case, wallet, I.D. card, pocketknife, eyeglass case) from the clothing of the dead man, and returned the body to the sea. On 13 October, these items were identified by Rudolf's son, Eugen Diesel, as belonging to his father.[25][26] Five months later, in March 1914, Diesel’s wife, Martha, went missing in Germany.[27][28]

There are various theories to explain Diesel's death. Some, such as Diesel's biographers Grosser (1978)[4] and Sittauer (1978)[29] have argued that he died by suicide. Another line of thought suggests that he was murdered, given his refusal to grant the German forces the exclusive rights to using his invention; indeed, Diesel had boarded Dresden with the intent of meeting with representatives of the Royal Navy to discuss the possibility of powering British submarines by diesel engine.[30] Another theory is that his apparent death was a ruse staged by the British government to cover his defection to the British cause, and that he then went to Canada, worked for the Vickers shipyard in Montreal and was responsible for a sudden acceleration in its ability to produce a successful Diesel engine for submarines.[31] Given the limited evidence at hand, his disappearance and death remain unsolved.

In 1950, Magokichi Yamaoka, the founder of Yanmar, the diesel engine manufacturer in Japan, visited West Germany and learned that there was no tomb or monument for Diesel. Yamaoka and people associated with Diesel began to make preparations to honour him. In 1957, on the occasion of the 100th anniversary of Diesel's birth and the 60th anniversary of the diesel engine development, Yamaoka dedicated the Rudolf Diesel Memorial Garden (Rudolf-Diesel-Gedächtnishain) in Wittelsbacher Park in Augsburg, Bavaria, where Diesel had undertaken his early technical education and original engine development.

Legacy

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Rudolf Diesel on a 1958 German postage stamp

After Diesel's death, his engine underwent much development and became a very important replacement for the steam piston engine in many applications. Because the Diesel engine required a more robust construction than a gasoline engine, it saw limited use in aviation. However, the Diesel engine became widespread in many other applications, such as stationary engines, agricultural machines and off-highway machinery in general, submarines, ships, and much later, locomotives, trucks, and in modern automobiles.

Diesel engines have the benefit of running more fuel-efficiently than any other internal combustion engines suited for motor vehicles, allowing more heat to be converted to mechanical work.

Diesel was interested in using coal dust[32] or vegetable oil as fuel, and in fact, his engine was run on peanut oil.[33] Although these fuels were not better replacements, in 2008 the rise in fuel prices coupled with concerns about remaining petroleum reserves, led to the more widespread use of vegetable oil and biodiesel.

The primary fuel used in Diesel engines is the eponymous diesel fuel, derived from the refinement of crude oil. Diesel is safer to store than gasoline, because its flash point is approximately 79.4 °C (174.9 °F) higher,[34] and it will not explode.

Use of vegetable oils as diesel engine fuel

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In a book titled Diesel Engines for Land and Marine Work,[35] Diesel said that "In 1900 a small Diesel engine was exhibited by the Otto company which, on the suggestion of the French Government, was run on arachide [peanut] oil, and operated so well that very few people were aware of the fact. The motor was built for ordinary oils, and without any modification was run on vegetable oil. I have recently repeated these experiments on a large scale with full success and entire confirmation of the results formerly obtained."[36]

See also

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Notes

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  1. ^ a b Until 1913, German citizenship was acquired through citizenship in a constituent state (whose requirements varied); from 1913, uniform citizenship requirements were set at the national level. As Diesel was born to parents from the Kingdom of Bavaria, he held Bavarian (and thus German) citizenship; in his US patent application (No. 608,845) from the 1890s, Diesel stated: "Be it known that I, Rudolf Diesel, a subject of the King of Bavaria, and a resident of Berlin, in the Kingdom of Prussia, Germany...".

References

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  1. ^ Merriam-Webster, Merriam-Webster's Collegiate Dictionary, retrieved 13 April 2022
  2. ^ Herring, Peter (2000). Ultimate Train (2000 ed.). London: Dorling Kindersley. ISBN 0-7513-0698-3., p. 148.
  3. ^ a b Moon 1974.
  4. ^ a b Grosser 1978.
  5. ^ Sittauer 1990, p. 49.
  6. ^ Sittauer 1990, p. 50.
  7. ^ "Société pour l'instruction élémentaire". www.inrp.fr/edition-electronique/lodel/dictionnaire-ferdinand-buisson (in French). 2020. Retrieved 23 February 2021.
  8. ^ a b Sittauer 1990, p. 51.
  9. ^ "Rudolf Diesel". Britannica. Retrieved 25 August 2024.
  10. ^ James, Ioan (2010). Remarkable Engineers: From Riquet to Shannon. Cambridge University Press. p. 129. ISBN 978-1-139-48625-5.
  11. ^ "Early History of the Diesel Engine". dieselnet.com. Retrieved 25 August 2024.
  12. ^ a b Friedrich Sass: Geschichte des deutschen Verbrennungsmotorenbaus von 1860 bis 1918, Springer, Berlin/Heidelberg 1962, ISBN 978-3-662-11843-6. p. 383
  13. ^ Friedrich Sass: Geschichte des deutschen Verbrennungsmotorenbaus von 1860 bis 1918, Springer, Berlin/Heidelberg 1962, ISBN 978-3-662-11843-6. p. 394
  14. ^ "Rudolf Diesel Internal-Combustion Engine". www.lemelson.mit.edu. Retrieved 25 August 2024.
  15. ^ "History". www.thysenkrupp.com. Retrieved 25 August 2024.
  16. ^ "The Curious Case of Rudolf Diesel". www.capitalremensonexchange.com. Retrieved 25 August 2024.
  17. ^ "Rudolf Diesel". www.sciencedirect.com. Retrieved 10 September 2024.
  18. ^ "How Rudolf Diesel's engine changed the world". www.bbc.com. Retrieved 25 August 2024.
  19. ^ "History of diesel engines". www.cummins.com. Retrieved 25 August 2024.
  20. ^ U.S. patent 542,846
  21. ^ U.S. patent 608,845
  22. ^ a b Greg Pahl, "Biodiesel: Growing a New Energy Economy", Chelsea Green Publishing, 2008. ISBN 978-1-933392-96-7
  23. ^ Time Magazine:The Mysterious Disappearance of the Diesel Engine's Inventor, 29 September 2015
  24. ^ Josef Luecke (22 September 1988). "Rudolf Diesel – A tragic end". Manila Standard. p. 24. It is alleged the cause of the loss of his fortune was due to unsuccessful stock market speculations and poor real estate deals.
  25. ^ "Diesel's Fate Learned". The Evening News Star. Washington, D.C. 14 October 1913. p. 13.
  26. ^ Cincinnati Enquirer, 14 October 1913
  27. ^ Brunt, Douglas, The Mysterious Case of Rudolf Diesel, 2023; ISDN 9781982169909
  28. ^ Berlin Correspondent (24 March 1914). "Is Dr. Diesel in Canada? Disappearance of His Widow". Daily Citizen. {{cite news}}: |author= has generic name (help)
  29. ^ Sittauer 1990, p. 122.
  30. ^ "The tumultuous history of the diesel engine". Autoblog. Retrieved 3 September 2018.
  31. ^ Brunt, Douglas, The Mysterious Case of Rudolf Diesel, 2023; ISDN 9781982169909
  32. ^ DE 67207  Rudolf Diesel: "Arbeitsverfahren und Ausführungsart für Verbrennungskraftmaschinen" p. 4.
  33. ^ "Biodiesel Technical Information" (PDF). biodiesel.org. Archived from the original (PDF) on 28 April 2018. Retrieved 27 December 2017.
  34. ^ "Flash Point – Fuels". Engineering ToolBox. 2005. Retrieved 18 December 2018.
  35. ^ Chalkley, Alfred Philip (1912), Diesel engines for land and marine work (2nd ed.), New York: D. Van Nostrand, p. 3
  36. ^ Chalkley, Alfred Philip (1912), Diesel engines for land and marine work (2nd ed.), New York: D. Van Nostrand, pp. 4–5

Works

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Bibliography

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